Circuit for reproducing reference carrier wave

ABSTRACT

A signal splitter splits a 4 differential phase shift keyed signal into four signal portions which, in turn, are subject to phase shifts of O, pi , pi /4 and 5 pi /4 radians, respectively. Those signal portions phase shifted by O and pi radians are applied to an OR circuit to be switched with a predetermined threshold voltage. The remaining signal portions are similarly processed by a NOR circuit. The outputs from both circuits are added to each other. The added signal is fed back to the signal splitter through a loop filter and a voltage controlled circuit to reproduce a reference carrier wave for the phase shift keyed signal.

United States Patent [1 1 Okano et al.

[ 51 May 27, 1975 [54] CIRCUIT FOR REPRODUCING REFERENCE 3,271,750 9/1966 Padalino 329/104 X CARRIER WAVE 3,336,534 8/1967 Gluth 331/12 3,358,240 l2/1967 McKay 3291i 12 X 1 Inventors: Aklra o; Yuichi Morilani: 3,654,564 4/1972 Tisi et a1. 329/122 Masahiro Murakami, all of 3,706,932 12/1972 Hughes 329/122 X Amagasaki, Japan 3,729,684 4/1973 Shuda 329/104 [73] Asslgnee: g llisubisjhi Denki Kabushiki Kaisha, Primary Examiner Alfred L Brody 0 apan Attorney, Agent, or Firm-Wenderoth, Lind and [22] Filed: Dec. 21, 1973 Ponack [21] Appl. No.: 427,099 ABSTRACT A signal splitter splits a 4 differential phase shift keyed Fm'elgn pp ly Data signal into four signal portions which, in turn, are sub- Dec. 27. 1972 Japan 48-2506 ject to phase shifts of 0, 11-, 11/4 and 51r/4 radians, re-

spectively. Those signal portions phase shifted by O [52] US. Cl. 329/104; 178/88; 325/320; and ar radians are applied to an OR circuit to be 329/ l 12; 331/12 switched with a predetermined threshold voltage. The [51] Int. Cl. H041 27/22 remaining signal portions are similarly processed by a [58] Field of Search 329/104, 1 12, 122; 331/12; NOR circuit. The outputs from both circuits are added 325/320; 178/88 to each other. The added signal is fed back to the Signal splitter through a loop filter and a voltage con- [56] References Cited trolled circuit to reproduce a reference carrier wave UNITED STATES PATENTS for the phase shift keyed signal. 3,271,742 9/1966 Rumble et al. 329/112 X 4 Claims, 4 Drawing Figures PHASE DET OR FREQUENCY 1 MULTIPLIER n: It PHASE PHASE E SHIFTER DET 2 composmow l 4 PSK 1 CIRCUIT 5- PHASE PHASE g SHIFTER DET 30p NOR FREQUENCY 22 U) m 1 MULTIPLIER PHASE PHASE -E SHIFTER E 24 I VOLTAGE CONTROLLED OSCILLATOR PAIENTEDMAY 2 7 ms 4 PSK SIG SHEET 1 FIG. 'lPRlOR ART PHASE DET lb 7!? PHASE PH cc SHIFTER' D g E 5 LOOP B 2 FILTER l I O PHASE PHASE SHIFTER DET g O. E 18,d g m & PHASE PHASE SHIFTER DET VOLTAGE CONTROLLED- OSC FIG. 2 PRIOR ART Pmmmmev I915 3.886462 SHEET 2 FIG. 3 10 I80 26 1 1 2 PHASE DET 0R FREQUENCY '1 1 MULTIPLIER m I: PHAsE PHAsE P3 SHIFTER DET 2p (IJMPOSITION 4PSK g CIRCUIT PHASE PHAsE g SHIFTER DET 30; l (D NOR FREQUENCY 22 w 16, MULTI PLIER A %PHASE PHAsE LOOP SHIFTER DET F'LTER 1 VOLTAGE CONTROLLED OSCILLATOR PATENTEDMAYN ms 3.888462 SHEET 3 U.

FIG. 4

OUTPUT OUTPUT FROM 180 FROM 18b OUTPUT l l OUTPUT FROM |8C OUTPUT FROM 8d (e /\/\/\/\2UTPUT FROM 28 (f WOUTPUT FROM 30b OUTPUT FROM 300 CIRCUIT FOR REPRODUCING REFERENCE CARRIER WAVE BACKGROUND OF THE INVENTION This invention relates to a system for reproducing a carrier wave for Four-Phase PSK Signal for a 4 differential phase shift keyed wave according to a composite detection technique, and more particularly to improvements in the phase composition system used with circuits for reproducing reference carrier waves.

In order to reproduce a reference carrier wave from a 4 differential phase shift keyed signal, the prior art processes have included a system for quadrupling a input frequency and then locking the phases. or a socalled inverse modulation system in which the input wave is again modulated on the basis of signal waves demodulated by a separate demodulator followed by the locking of the phase. Also, instead of the systems as above described, there has been proposed a composite detection system for reproducing a reference carrier wave for a 4 differential phase shift keyed signal while at the same time demodulating the phase shift keyed signal. In the composite detection system the use of a high modulation frequency might cause a threshold voltage with which a composition circuit performs the switching operation to be varied until the output from the composition circuit would disappear, resulting in a very narrow phase-locking area. Also, the frequency characteristic of the system might greatly deteriorate the sensitivity of detection of the required phase detectors.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a new and improved circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal in which a range in which the phases can be locked increases by raising the switching level and preventing a direct current level used for the switching from varying due to the frequency characteristic of the system.

The present invention accomplishes this object by the provision of a circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal, comprising, in combination, a signal splitter circuit for splitting a 4 differential phase shift keyed signal applied thereto into four signal portions, phase shifter means for relatively shifting the phases of the four signal portions so that, with respect to a selected one of the signal portions, the remaining three signal portions have phase shifts of 1r, 1r/4 and 51114 radians respectively, one phase detector for phase detecting each of the relative phase shifted signal portions, a pair of logic circuits, each connected to one pair of the phase detectors producing detected outputs having a phase difference of 1r radians, to switch the detected outputs with a predetermined threshold magnitude, and a composition circuit for adding the outputs from the pair oflogic circuits to each other.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will become more readily apparent from the following detailed description taken in conjunction with the accompanying drawings in which:

FIG. 1 is a block diagram of a circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal in accordance with the principles of the prior art;

FIG. 2 is a graph illustrating waveforms developed in the arrangement shown in FIG. 1;

FIG. 3 is a block diagram of a circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal in accordance with the principles of the present invention;

FIG. 4 is a graph illustrating waveforms developed at various points in the arrangement shown in FIG. 3.

Throughout the several Figures like reference numerals designate the identical or corresponding components.

DESCRIPTION OF THE PREFERRED EMBODIMENTS In the conventional type of composition systems, four detected waveforms are composed together. In the present invention, however, each pair of detected waveforms having a phase difference of 1r radians is first composed and then the composed waveforms are composed together.

Referring now to FIG. I of the drawings, there is illustrated a looped phase locking circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal according to the conventional type of composite detection systems. The term differential phase shift keyed is abridged to a PSK." The arrangement illustrated comprises a signal splitter 10, three phase shifters l2, l4 and 16 connected in parallel circuit relationship with the signal splitter 10 to shift the phase by 1r, 11-12 and 31r/2 radians respectively, a first phase detector connected directly to the signal splitter 10, a second phase detector 18b connected to the 11 phase shifter 12, a third phase detector 180 connected to the IT/2 phase shifter 14 and a fourth phase detector 18d connected to the 31r2 phase shifter 16. All the phase detectors are connected a composition circuit 20 which is in turn connected to a loop filter 22. Then the loop filter 22 is connected to the signal splitter 10 through a voltage controlled oscillator 24 which may be abridged to a VCO 24. Thus the arrangement forms a phase locking loop.

In order to reproduce a reference carrier wave by synchronizing the voltage controlled oscillator 24 with a 4 PSK modulated signal input to the phase locked loop, the four phase detectors 18a, 18b, 18c and 18d have respective stable null points for the 4 PSK modulated signals expressed by the stable null point disposed at angular intervals of 1r/2 radians. This measure permits the voltage controlled oscillator 24 to respond to only a change in Amt but not to 1r/2K(t) to thereby reproduce a reference carrier wave expressed by sin( wo Am) from the 4 PSK modulated signal sin {(000 Aw)! (1r/2) K(t)}. The details of the operation are well known in the art and need not be further described herein.

The arrangement shown in FIG. 1 has been disadvantageous in that a phase locking area is very narrow. This is because the composition circuit 20 effects the switching with its threshold magnitude as shown by a horizontal dotted line in FIG. 2. Therefore if detected outputs from the phase detectors are attempted due to the frequency characteristic of the system for applications where the modulation frequency is high, then the direct current (dc) level is changed. Eventually, the detected waveforms do not go above the horizontal dotted line as shown in FIG. 2, resulting in the disappear ance of the output from the composition circuit 20. As shown in FIG. 2, those portions of the detected waveforms going across the threshold magnitude are small as compared with the whole thereof. This has resulted in the disadvantages that the composition circuit is apt to be affected by the attenuation of the detected waveforms to more deteriorate the sensitivity of detection due to the frequency characteristic.

The present invention contemplates to eliminate the disadvantages of the prior art as above described, by the provision of means for composing each pair of detected waveforms separately from the other pair of thereof and then combining the composed waveforms together. This measure is effective for raising the switching level to eliminate a variation in the dc level due to the frequency characteristic or the like, thereby broadening a phase locking area.

Referring now to FIG. 3, it is seen that an arrangement disclosed herein is similar to that shown in FIG. 1 except that an OR circuit 26 is connected at two in puts to the phase detectors 18a and 18b respectively while a NOR circuit 28 is connected at two inputs to the phase detectors 18c and 18d respectively and that the OR and NOR circuits 26 and 28 respectively are connected to the composition circuit 20 through respective frequency multipliers 30a and 30b. Also the phase shifters 12, 14 and 16 are designed to shift the phase by angles of 11', 11/4 and 51r/4 radians respectively.

The operation of the arrangement as shown will now be described with reference to FIG. 4.

A received 4 PSK signal is supplied to the signal splitter where it is split into four signal portions A first one ofthe split signal portions is directly applied to the first phase detector 180, and a second split signal portion is applied to the second phase detector 18b through the 11' phase shifter 12. Both phase detectors 18a and 18b produce detected outputs as shown by waveforms in FIG. la. On the other hand, a third one of the split signal portions is applied to the third phase detector 180 through the n14 phase shifter 14 and a fourth split signal portion is applied to the fourth phase detector I8d through the 51144 phase detector 16. The phase detector 180 and 18d produce detected outputs as shown at waveforms in FIG. 4d. It will be appreciated that the detected outputs from the phase detectors 18a and 18c have phase differences of IT/4 radians with respect to those from the phase detectors 18b and 18d respectively.

The detected outputs from the phase detectors 18a and 18b are supplied to the OR circuit 26 while the detected outputs from the phase detectors 18c and 18d are supplied to the NOR circuit 28. The OR and NOR circuits 26 and 28 respectively have respective switching levels or threshold magnitudes set adjacent the dc levels of the waveforms as shown at horizontal dotted lines in FIGS. 4a and 4d. Therefore the logic circuits 26 and 28 produce outputs as shown in FIGS. 4b and 40 respectively. Then the output from the OR circuit 26 is supplied to the frequency multiplier 30a to be dou bled in frequency and the output from the NOR circuit 28 is supplied to the frequency multiplier 30b where it is doubled in frequency. The frequency doubled outputs from the frequency multipliers 30a and 30b are shown as waveforms in FIGS. 41' and 4f and added to each other by the composition circuit 20 to provide an output waveform as shown by a thick solid line in FIG. 45:. The output waveform from the composition circuit 20 has its synchronized stable point as shown at cross in FIG. 4g.

The output of the composition circuit 20 is fed back to the signal splitter 10 through a loop filter 22 and a voltage controlled oscillator 24 thereby to form a phase locked loop as in the arrangement of FIG. 1. Thus a reference carrier wave sin(mo+Aw) is reproduced from the PSK modulated signal sin{(wo Am)! 1r/2K (r)} supplied to the signal splitter 10.

In the arrangement as shown in FIG. 3, it will be appreciated that, with the modulation frequency high, any attenuation of the detected waveforms due to the frequency characteristic, causes the outputs from one of the frequency multipliers to change on one side, in this example, the positive side as shown at dotted line in FIG. 40 while the output from the other frequency multiplier is changed on the other or negative side as shown at dotted line in FIG. 4f. Therefore what is composed as shown at dotted line in FIG. 4g remains always constant with the result that the dc level is scarcely varied.

From the foregoing it will be apparent that the present invention provides a phase composition device having a stable, broad lock area while the output waveform therefrom is prevented from disappearing due to the frequency characteristic of the system.

While the present invention has been illustrated and described in conjunction with a few preferred embodiments thereof it is to be understood that numerous changes and modifications may be resorted to without departing from the spirit and scope of the present invention.

What we claim is:

l. A circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal, comprising, in combination, a signal splitter circuit for splitting a 4 differential phase shift keyed signal applied thereto into four signal portions, phase shifter means for relatively shifting phases of said four signal portions so that, with respect to a selected one of said signal portions, the remaining three signal portions have phase shifts of 1r, 1r/4 and 51r/4 radians respectively, one phase detector for phase detecting each of the relative phase shifted signal portions, a pair of logic circuits each connected to one pair of the phase detectors producing detected outputs having a phase difference of 1r radians to switch said detected outputs with a predetermined threshold magnitude, a composition circuit for adding the outputs from said pair of logic circuits, a loop filter coupled to said composition circuit, and a voltage controlled oscillator coupled to said loop filter and to said signal splitter circuit to form a phase locked loop.

2. A circuit for reproducing a reference carrier wave as claimed in claim 1, wherein a selected one of said four split signal portions from said signal splitter circuit is directly supplied to one of said phase detectors while the remaining three split signal portions are supplied to the remaining phase detectors through those portions of said phase shifter means effecting phase shifts of 1r, -rr/4 and 51r/4 radians respectively.

as claimed in claim 1, wherein said pair of logic circuits are connected to said composition circuit through individual frequency multipliers for doubling the frequency of the outputs from the same. 

1. A circuit for reproducing a reference carrier wave for a 4 differential phase shift keyed signal, comprising, in combination, a signal splitter circuit for splitting a 4 differential phase shift keyed signal applied thereto into four signal portions, phase shifter means for relatively shifting phases of said four signal portions so that, with respect to a selected one of said signal portions, the remaining three signal portions have phase shifts of pi , pi /4 and 5 pi /4 radians respectively, one phase detector for phase detecting each of the relative phase shifted signal portions, a pair of logic circuits each connected to one pair of the phase detectors producing detected outputs having a phase difference of pi radians to switch said detected outputs with a predetermined threshold magnitude, a composition circuit for adding the outputs from said pair of logic circuits, a loop filter coupled to said composition circuit, and a voltage controlled oscillator coupled to said loop filter and to said signal splitter circuit to form a phase locked loop.
 2. A circuit for reproducing a reference carrier wave as claimed in claim 1, wherein a selected one of said four split signal portions from said signal splitter circuit is directly supplied to one of said phase detectors while the remaining three split signal portions are supplied to the remaining phase detectors through those portions of said phase shifter means effecting phase shifts of pi , pi /4 and 5 pi /4 radians respectively.
 3. A circuit for reproducing a reference carrier wave as claimed in claim 1, wherein one of said logic circuit is an OR circuit and the other logic circuit is a NOR circuit.
 4. A circuit for reproducing a reference carrier wave as claimed in claim 1, wherein said pair of logic circuits are connected to said composition circuit through individual frequency multipliers for doubling the frequency of the outputs from the same. 